for num in nums:
self.assertAlmostEqual((num.real**2 + num.imag**2) ** 0.5, abs(num))
- def test_repr(self):
- self.assertEqual(repr(1+6j), '(1+6j)')
- self.assertEqual(repr(1-6j), '(1-6j)')
+ def test_repr_str(self):
+ def test(v, expected, test_fn=self.assertEqual):
+ test_fn(repr(v), expected)
+ test_fn(str(v), expected)
- self.assertNotEqual(repr(-(1+0j)), '(-1+-0j)')
+ test(1+6j, '(1+6j)')
+ test(1-6j, '(1-6j)')
+
+ test(-(1+0j), '(-1+-0j)', test_fn=self.assertNotEqual)
+
+ test(complex(1., INF), "(1+infj)")
+ test(complex(1., -INF), "(1-infj)")
+ test(complex(INF, 1), "(inf+1j)")
+ test(complex(-INF, INF), "(-inf+infj)")
+ test(complex(NAN, 1), "(nan+1j)")
+ test(complex(1, NAN), "(1+nanj)")
+ test(complex(NAN, NAN), "(nan+nanj)")
+
+ test(complex(0, INF), "infj")
+ test(complex(0, -INF), "-infj")
+ test(complex(0, NAN), "nanj")
self.assertEqual(1-6j,complex(repr(1-6j)))
self.assertEqual(1+6j,complex(repr(1+6j)))
self.assertEqual(-6j,complex(repr(-6j)))
self.assertEqual(6j,complex(repr(6j)))
- self.assertEqual(repr(complex(1., INF)), "(1+infj)")
- self.assertEqual(repr(complex(1., -INF)), "(1-infj)")
- self.assertEqual(repr(complex(INF, 1)), "(inf+1j)")
- self.assertEqual(repr(complex(-INF, INF)), "(-inf+infj)")
- self.assertEqual(repr(complex(NAN, 1)), "(nan+1j)")
- self.assertEqual(repr(complex(1, NAN)), "(1+nanj)")
- self.assertEqual(repr(complex(NAN, NAN)), "(nan+nanj)")
-
- self.assertEqual(repr(complex(0, INF)), "infj")
- self.assertEqual(repr(complex(0, -INF)), "-infj")
- self.assertEqual(repr(complex(0, NAN)), "nanj")
-
def test_neg(self):
self.assertEqual(-(1+6j), -1-6j)
op->ob_type->tp_free(op);
}
-
static PyObject *
-complex_format(PyComplexObject *v, int precision, char format_code)
+complex_repr(PyComplexObject *v)
{
+ int precision = 0;
+ char format_code = 'r';
PyObject *result = NULL;
Py_ssize_t len;
char *tail = "";
if (v->cval.real == 0. && copysign(1.0, v->cval.real)==1.0) {
+ /* Real part is +0: just output the imaginary part and do not
+ include parens. */
re = "";
im = PyOS_double_to_string(v->cval.imag, format_code,
precision, 0, NULL);
goto done;
}
} else {
- /* Format imaginary part with sign, real part without */
+ /* Format imaginary part with sign, real part without. Include
+ parens in the result. */
pre = PyOS_double_to_string(v->cval.real, format_code,
precision, 0, NULL);
if (!pre) {
tail = ")";
}
/* Alloc the final buffer. Add one for the "j" in the format string,
- and one for the trailing zero. */
+ and one for the trailing zero byte. */
len = strlen(lead) + strlen(re) + strlen(im) + strlen(tail) + 2;
buf = PyMem_Malloc(len);
if (!buf) {
return result;
}
-static PyObject *
-complex_repr(PyComplexObject *v)
-{
- return complex_format(v, 0, 'r');
-}
-
static Py_hash_t
complex_hash(PyComplexObject *v)
{
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